Electric field induced associations in the double layer of salt-in-ionic-liquid electrolytes†

IF 3.4 3区 化学 Q2 Chemistry Faraday Discussions Pub Date : 2024-03-22 DOI:10.1039/D4FD00021H
Daniel M. Markiewitz, Zachary A. H. Goodwin, Michael McEldrew, J. Pedro de Souza, Xuhui Zhang, Rosa M. Espinosa-Marzal and Martin Z. Bazant
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Abstract

Ionic liquids (ILs) are an extremely exciting class of electrolytes for energy storage applications. Upon dissolving alkali metal salts, such as Li or Na based salts, with the same anion as the IL, an intrinsically asymmetric electrolyte can be created for use in batteries, known as a salt-in-ionic liquid (SiIL). These SiILs have been well studied in the bulk, where negative transference numbers of the alkali metal cation have been observed from the formation of small, negatively charged clusters. The properties of these SiILs at electrified interfaces, however, have received little to no attention. Here, we develop a theory for the electrical double layer (EDL) of SiILs where we consistently account for the thermoreversible association of ions into Cayley tree aggregates. The theory predicts that the IL cations first populate the EDL at negative voltages, as they are not strongly bound to the anions. However, at large negative voltages, which are strong enough to break the alkali metal cation–anion associations, these IL cations are exchanged for the alkali metal cation because of their higher charge density. At positive voltages, we find that the SiIL actually becomes more aggregated while screening the electrode charge from the formation of large, negatively charged aggregates. Therefore, in contrast to conventional intuition of associations in the EDL, SiILs appear to become more associated in certain electric fields. We present these theoretical predictions to be verified by molecular dynamics simulations and experimental measurements.

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盐-离子液体电解质双电层中的电场诱导关联
离子液体(IL)因其独特的综合特性,在储能应用中是一类极其令人兴奋的电解质。将碱金属盐(如锂盐或钠盐)与与离子液体相同的阴离子溶解后,就能生成一种用于电池的内在不对称电解质,这种电解质被称为 "盐中离子液体"(SiIL)。这些 SiIL 在体液中得到了很好的研究,通过形成带负电荷的小簇,可以观察到碱金属阳离子的负转移数量。然而,这些 SiIL 在电化界面上的特性却很少受到关注。在此,我们提出了 SiIL 的电双层 (EDL) 理论,并在此基础上解释了离子与 Cayley 树聚合体的热可逆结合。该理论预测,在负电压条件下,IL 阳离子首先填充 EDL,因为它们与阴离子的结合力不强。然而,在足以破坏碱金属阳离子与阴离子结合的大负压下,这些 IL 阳离子会因电荷密度较高而被碱金属阳离子交换。在正电压下,我们发现 SiIL 实际上变得更加聚集,同时屏蔽了电极电荷,避免形成带负电荷的大型聚集体。因此,与传统的 EDL 关联直觉相反,SiIL 在某些电场中似乎变得更加关联。我们将通过分子动力学模拟和实验测量来验证这些理论预测。
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Faraday Discussions
Faraday Discussions CHEMISTRY, PHYSICAL-
CiteScore
4.90
自引率
0.00%
发文量
259
审稿时长
2.8 months
期刊介绍: Discussion summary and research papers from discussion meetings that focus on rapidly developing areas of physical chemistry and its interfaces
期刊最新文献
Back cover List of participants Poster list Correction: Challenges with relativistic GW calculations in solids and molecules List of participants
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